KR101705522B1 - Voice coil motor - Google Patents

Abstract

A voice coil motor includes: a mover including a coil block including a bobbin for receiving a lens and a coil wound on an outer circumferential surface of the bobbin in a cylindrical shape having open ends at both ends; A stator including a tubular yoke having an opening for exposing the lens, a plurality of magnets disposed inside the yoke and facing the coil block, and a magnet fixing member disposed inside the yoke and fixing the magnets. And an elastic member for elastically supporting the bobbin.

Description

Voice coil motor {VOICE COIL MOTOR}

The present invention relates to a voice coil motor.

In recent years, mobile phones including a compact digital camera have been developed. In the case of a miniature digital camera built in a mobile phone or the like, it includes an image sensor for changing external light into an image and a lens facing the image sensor.

In the case of the conventional micro-digital camera, since the lens and the image sensor are fixed, it is difficult to control the distance between the lens and the image sensor, and it is difficult to obtain a high-quality image.

Recently, a lens driving device such as a voice coil motor capable of adjusting a distance between a lens and an image sensor has been developed.

The voice coil motor includes a bobbin to which a lens is fixed, a coil block wound on the outer circumferential surface of the bobbin, a magnet facing the coil block and a yoke for fixing the magnet, and a leaf spring for elastically supporting the up-down bobbin.

In the case of a magnet, which is one of the important components of the voice coil motor according to the prior art, it is fixed to the inner surface of the yoke by an adhesive or the like.

However, when the magnet is fixed to the inner surface of the yoke by using an adhesive or the like, the magnet is separated from the yoke due to a strong shock or vibration applied to the yoke, .

The present invention provides a voice coil motor in which a magnet is prevented from flowing in a yoke due to external shock and vibration.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In one embodiment, the voice coil motor includes: a mover including a coil block including a bobbin for receiving a lens in a cylindrical shape having open ends at both ends and a coil wound around an outer circumferential surface of the bobbin; A stator including a tubular yoke having an opening for exposing the lens, a plurality of magnets disposed inside the yoke and facing the coil block, and a magnet fixing member disposed inside the yoke and fixing the magnets. And an elastic member for elastically supporting the bobbin.

According to the voice coil motor of the present invention, since the magnet disposed in the yoke is fitted in the fitting manner by using the magnet fixing member, it is possible to reduce the driving efficiency of the mover caused by the magnet moving in the yoke, The present invention has an effect that can be prevented.

1 is an exploded perspective view illustrating a voice coil motor according to an embodiment of the present invention.
Fig. 2 is an exploded perspective view of the stator of Fig. 1;
3 is an assembled perspective view of the stator of FIG.
4 is a cross-sectional view taken along the line II 'in Fig.
5 is a perspective view illustrating a magnet fixing member of a stator of a voice coil motor according to another embodiment of the present invention.
6 is a perspective view illustrating a magnet fixing member of a stator of a voice coil motor according to another embodiment of the present invention.
7 is a cross-sectional view illustrating a stator of a voice coil motor according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

1 is an exploded perspective view illustrating a voice coil motor according to an embodiment of the present invention. Fig. 2 is an exploded perspective view of the stator of Fig. 1; 3 is an assembled perspective view of the stator of FIG. 4 is a cross-sectional view taken along line I-I 'of FIG. 3;

Referring to FIG. 1, a voice coil motor 800 includes a mover 100, an elastic member 200, and a stator 300. In addition, the voice coil motor 800 may further include a case 400, a cover can 600, and a spacer 700.

The mover 100 includes a bobbin 150 and a coil block 190.

The bobbin 150 is formed in a cylindrical shape having both ends opened. The bobbin 150 is formed, for example, in the shape of a cylinder having open ends at both ends. The bobbin 150 serves to fix a lens facing an image sensor that changes external light to an image.

A female screw 112 is formed on the inner circumferential surface of the bobbin 150 and a lens fixing member (not shown) having a lens coupled thereto is fastened to the female screw 112 to fix the lens to the bobbin 150. Alternatively, the lens may be directly fastened to the female threaded portion 112 of the bobbin 150.

A step 118 is formed at the lower end of the outer circumferential surface of the bobbin 150 and a coil block 190 to be described later is fixed to the step 118.

The coil block 190 is disposed on the outer circumferential surface of the bobbin 150 and the coil block 190 is fixed using the step 118 formed on the lower end of the outer circumference of the bobbin 150.

The coil block 190 may be formed by winding a coil in a cylindrical shape on the outer circumferential surface of the bobbin 150 or inserting a coil block 190 wound in a cylindrical shape on the outer circumferential surface of the bobbin 150. An adhesive may be interposed between the coil block 190 and the bobbin 150 when the coil block 190 wound in a cylindrical shape is inserted into the outer peripheral surface of the bobbin 150. [

The coil block 190 is electrically connected to the first elastic members 210 of the elastic member 200 to be described later and is driven by a driving signal provided from the first elastic members 210, Lt; / RTI >

The mover 100 is driven with respect to the fixed magnet 350 by a magnetic field generated from the coil block 190 and a force generated by a magnetic field generated from the magnet 350 to be described later.

In one embodiment of the present invention, by adjusting the level of the drive signal applied to the coil block 190, the distance between the lens mounted on the bobbin 150 and the image sensor (not shown) facing the lens can be adjusted very precisely .

The elastic member 200 includes a first elastic member 210 and a second elastic member 220. In one embodiment of the present invention, the first elastic member 210 and the second elastic member 220 of the elastic member 200 may include leaf springs.

The first elastic member 210 and the second elastic member 220 of the elastic member 200 according to the embodiment of the present invention elastically support the bobbin 150 to prevent the bobbin 150 from being separated from the designated position And to return the bobbin 150, which has been raised by the action of the coil block 190 and the magnet 350, to the initial position.

The first elastic member 210 is coupled to the lower surface 117 of the bobbin 150. The first elastic member 210 is coupled to a boss (not shown) protruding from the lower surface 117 of the bobbin 150, The first elastic member 210 includes a through hole which is engaged with a boss protruded from the lower surface 117 of the bobbin 150.

After the first elastic member 210 is inserted into the boss projecting from the lower surface 117 of the bobbin 150, heat and pressure are applied to the end of the boss. The upper surface of the first elastic member 210 is fixed by the boss by the end portion of the molten boss due to the heat and pressure applied to the boss so that the first elastic member 210 moves from the lower surface 117 of the bobbin 150 Can be prevented from being separated.

In one embodiment of the present invention, the first elastic members 210 are formed as a pair, and the pair of first elastic members 210 are electrically insulated from each other. Each of the pair of first elastic members 210 electrically insulated from each other includes a connection terminal, and the connection terminal is electrically connected to the external circuit board.

One end of the coil constituting the coil block 190 and the other end opposite to the one end are electrically connected to the pair of first elastic members 210, respectively. Therefore, a driving signal provided from the external circuit board is provided to the coil block 190 through the first elastic members 210, and a magnetic field is generated from the coil block 190 by the driving signal.

The second elastic member 220 is coupled to the upper surface 116 facing the lower surface 117 of the bobbin 150.

Referring to FIGS. 2 to 4, the stator 300 includes a yoke 310, a magnet 350, and a magnet fixing member 370.

The yoke 310 includes a top plate 312 and side plates 314. The upper plate 312 and the side plate 314 of the yoke 310 may include a metal.

The yoke 310 including the metal prevents the leakage of the magnetic flux generated from the magnet 350 and induces the magnetic flux generated from the magnet 350 to be directed to the coil block 190 to drive the mover 100 Thereby further improving the efficiency.

The upper plate 312 of the yoke 310 is formed in a rectangular plate shape and an opening 311 for exposing a lens mounted on the bobbin 150 is formed at the center of the upper plate 312.

The side plate 314 of the yoke 310 extends from each edge of the upper plate 312 in a direction to surround the coil block 190 and the upper plate 312 and the side plate 314 of the yoke 310 are integrally formed do. In one embodiment of the present invention, the side plates 314 extending from the four edges of the top plate 312 comprise four sides.

In one embodiment of the present invention, the magnets 350 are formed, for example, in the shape of a rectangular parallelepiped plate, and the magnets 350 are disposed on the inner surface of the side plate 314 of the yoke 310. For example, when there are four side plates 314 of the yoke 310, the magnets 350 are disposed on the four side plates 314 of the yoke 310, respectively. Each of the magnets 350 is arranged to face the coil block 190.

The magnets 350 formed in a rectangular parallelepiped shape are arranged in parallel with the side plates 314 of the yoke 310 and the magnets 350 are disposed on the side plates 314, As shown in Fig.

Each of the magnets 350 generates a magnetic field and generates a magnetic field generated by the magnets 350 and the mover 350 by the force generated by the magnetic field generated from the coil block 190 facing the magnets 350 Is driven.

The magnet fixing member 370 fixes the magnets 350 disposed inside the yoke 310. In one embodiment of the present invention, by fixing the magnets 350 to the magnet fixing member 370, it is possible to prevent the magnet 350 from flowing or being separated from the designated position by external impact or vibration.

The magnet fixing member 370 includes a body portion 372 and a coupling portion 374.

The body portion 372 is disposed on the inner surface of the upper plate 312 of the yoke 310 and the body portion 372 is formed into a frame shape having an opening. The opening of the body portion 372 is formed in a shape and size suitable for not exposing the lens of the bobbin 150. [ The body portion 372 serves as a base for fixing the engaging portion 374 at a specified position.

In one embodiment of the present invention, the body portion 372 is formed, for example, in the shape of a rectangular frame. The body portion 372 may be formed in various shapes according to the arrangement of the magnets 350 disposed in the yoke 310. For example, when four magnets having a rectangular parallelepiped shape are arranged in a rectangular shape, the body portion 372 is formed in a rectangular frame shape. Alternatively, when a plurality of magnets having a curved plate shape are arranged in a circle, the body portion 372 is formed into a circular frame shape.

A plurality of engaging portions 374 protrude from the body portion 372 along the side plates 314 of the yoke 310. The engaging portion 374 is formed at a corresponding position between a pair of adjacent magnets 350 among the magnets 350 disposed along the side plates 314 of the yoke 310. The engaging portion 374 and the magnets 350 are coupled to each other by a fitting method.

The engaging portions 374 protruding from the body portion 372 protrude in the form of a rectangular column and are provided with magnets 350 arranged parallel to the side plate 314 of the yoke 310, The engaging portion 374 having a rectangular columnar shape is formed at an obtuse angle.

Specifically, the angle formed by the engaging portion 374 and the magnet 350 is, for example, formed at an angle of 135 degrees.

Engagement grooves 375 for engaging the ends of the magnets 350 are formed on both side walls of the engaging portion 374 facing each end of the adjacent pair of magnets 350.

In an embodiment of the present invention, the magnets 350 are fitted in the coupling grooves 375 in a direction toward the bottom of the coupling portion 374 at the top of the coupling portion 374 so that the magnet 350 And is coupled to the engaging portion 374.

According to one embodiment of the present invention, the fitting method is an interference fit method in which there is no gap between the engaging groove 375 and the magnet 350 according to the dimensional relationship of the engaging groove 375 and the magnet 350, 375 and the magnet 350, and a loose fit with a clearance at all times. In one embodiment of the present invention, the horizontal Or a structure capable of preventing vertical movement within a certain range.

As the magnets 350 are coupled to the engaging groove 375 in the downward direction from the upper portion of the engaging portion 374 in the embodiment of the present invention, And is fixed at the designated position without moving in the direction toward the block 190.

The body portion 372 and the engaging portion 374 of the magnet fixing member 370 for fixing the magnet 350 include synthetic resin capable of injection molding and the body portion 372 and The engaging portion 374 is integrally formed by an injection process.

Although it is described in the embodiment of the present invention that the magnet fixing member 370 is formed of a synthetic resin by an injection process, the magnet fixing member 370 may be formed by processing a light metal by press working .

The magnet 350 fixed to the magnet fixing member 370 has a structure that is easily separated from the upper portion of the engaging portion 374. The magnet 350 fixed to the magnet fixing member 370 has a structure in which the spacer 350 shown in FIG. The spacer 700 contacts the magnet 700 and the magnet 350 is prevented from being separated from the magnet fixing member 370 so that the magnet 350 is fixed in the up,

The body portion 372 of the magnet fixing member 370 can be simply brought into contact with the inner surface of the top plate 312 of the yoke 310 but the magnet fixing member 370 can be prevented from moving in the yoke 310 An adhesive 378 may be disposed between the magnet fixing member 370 and the inner surface of the top plate 312 of the yoke 310. [ The body portion 372 is inserted into the upper plate 312 which is in contact with the body portion 372 of the magnet fixing member 370 in order to fix the magnet fixing member 370 to the upper plate 312 of the yoke 310 It is also possible to form a concave fixing groove.

5 is a perspective view illustrating a magnet fixing member of a stator of a voice coil motor according to another embodiment of the present invention. The voice coil motor shown in Fig. 5 has substantially the same configuration as that of the voice coil motor shown and described with reference to Figs. 1 to 4 except for the engaging portion of the magnet fixing member. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

Referring to Fig. 5, the magnet fixing member 370 includes a body portion 372 and a coupling portion 374a.

The coupling portion 374a protrudes from the body portion 372 along the side plate 314 of the yoke 310. In an embodiment of the present invention, the coupling portion 374a protrudes in the form of a triangular prism, The two side surfaces of the engaging portion 374a having the shape of a triangular prism are arranged in parallel with the pair of side plates 314 adjacent to each other and the side surfaces of the triangular prismatic engaging portion 374a are fitted to the magnet 350 are formed.

6 is a perspective view illustrating a magnet fixing member of a stator of a voice coil motor according to another embodiment of the present invention. The voice coil motor shown in Fig. 6 has substantially the same configuration as that of the voice coil motor shown and described with reference to Figs. 1 to 4 except for the engagement portion of the magnet fixing member. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

Referring to Fig. 6, the magnet fixing member 370 includes a body portion 372 and a coupling portion 374b.

The coupling portion 374b protrudes from the body portion 372 along the side plate 314 of the yoke 310. In an embodiment of the present invention, the coupling portion 374a protrudes in a circular column shape, An engaging groove 375b for engaging with the magnets 350 is formed on the outer circumferential surface of the engaging portion 374b having a shape.

7 is a cross-sectional view illustrating a stator of a voice coil motor according to another embodiment of the present invention. The voice coil motor shown in Fig. 7 has substantially the same configuration as the voice coil motor shown and described with reference to Figs. 1 to 4 except for the magnet fixing member. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

Referring to Fig. 7, the magnet fixing member 370 includes a body portion 372 and a magnet insertion groove 372a.

The body portion 372 is formed in a rectangular frame shape in contact with the inner surface of the upper plate 312 of the yoke 310 and the upper plate 312 of the yoke 310 A magnet insertion groove 372a suitable for housing the magnet 350 is formed. It is preferable that the depth of the magnet insertion groove 372a is formed to a sufficient depth so that the magnet 350 is not separated from the body portion 372. [

The magnet insertion groove 372a is formed in the body portion 372 so that the magnet 350 is inserted into the body portion 372 so that the coupling portion coupled to the magnet 350 is not formed on the body portion 372 The magnet 350 can be firmly fixed to the body portion 372.

Although embodiments of the present invention illustrate and illustrate embodiments in which a magnet 350 is fitted to an injection molded article inside a yoke 310 in a fitting manner, A magnet fixing part for fixing the magnet 350 to the upper plate 312 of the yoke can be formed and the magnet 350 can be coupled to the magnet fixing part.

Referring again to FIG. 1, the case 400 includes an upper case 410 and a lower case 420. The case 400 serves to couple and fix the mover 100, the elastic member 200, and the stator 300 to each other.

The upper case 410 includes an upper plate 411 and a coupling post 412. The upper case 410 is disposed on the upper portion of the yoke 310 and the second elastic member 220 of the elastic member 200 is interposed between the upper case 410 and the yoke 310.

The top plate 411 of the upper case 410 may be formed in a rectangular plate shape when viewed from the top and an opening 414 exposing the bobbin 150 is formed at the center of the top plate 411 of the upper case 410. [ .

The coupling pillar 412 of the upper case 410 protrudes in parallel with the bobbin 150 from the four corners of the upper plate 411 and the coupling pillar 412 is engaged with the lower case 420 to be described later.

The lower case 420 includes columns 425 which are engaged with the respective coupling pillars 412 of the upper case 410.

As described above in detail, by joining the magnets disposed in the yoke in a fitting manner by using the magnet fixing member, it is possible to reduce the driving efficiency of the mover caused by the magnet moving in the yoke and to prevent the driving failure of the mover .

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

800 ... Voice coil motor 100 ... Mover
200 ... elastic member 300 ... stator
400 ... case 600 ... cover can
700 ... Spacer

Claims (13)

A yoke including an upper plate and a side plate extending downward from the upper plate;
A bobbin accommodated inside the yoke;
A coil disposed on an outer circumferential surface of the bobbin;
A magnet disposed on the yoke so as to correspond to the coil; And
And a magnet fixing member disposed inside the yoke and fixing the magnet,
Wherein the magnet fixing member includes a body portion disposed on an upper plate side of the yoke and four engaging portions extending downward from the body portion,
Wherein the magnet is disposed between two adjacent engaging portions,
Wherein an upper surface of the magnet engages with the body, both sides of the magnet engage with the engaging portion, an outer surface of the magnet engages an inner surface of the side plate of the yoke, and an inner surface of the magnet faces the coil ,
Wherein the engaging portion includes an inner surface opposed to the bobbin, an outer surface disposed opposite to the inner surface of the engaging portion, and both side surfaces connecting the inner surface of the engaging portion and the outer surface of the engaging portion,
Wherein the inner surface of the magnet and the inner surface of the engaging portion form an obtuse angle. The method according to claim 1,
The upper plate has a through hole exposing a lens coupled to the bobbin,
Wherein the side plate extends from an edge of the upper plate in a direction to surround the magnet. 3. The method of claim 2,
Wherein the magnet is formed in a plate shape arranged in parallel with an inner surface of the side plate. The method according to claim 1,
And the coupling portion is disposed between a pair of magnets disposed adjacent to each other. The method according to claim 1,
And the engaging portion is formed with an engaging groove which is engaged with both side surfaces of the magnet in a fitting manner. The method according to claim 1,
And the engaging portion of the magnet fixing member has a columnar shape. The method according to claim 6,
Wherein the coupling portion is formed in any one of a square pillar, a triangular pillar, and a circular pillar. The method according to claim 6,
Wherein the coupling portion is formed in a rectangular pillar shape. The method according to claim 1,
Wherein the body portion and the coupling portion are integrally formed by an injection process. The method according to claim 1,
And a magnet insertion groove into which the magnet is inserted is formed in the body portion. The method according to claim 1,
And an adhesive member disposed between the magnet fixing member and the yoke. The method according to claim 1,
And the inner surface of the engaging portion and the outer surface of the engaging portion are disposed in parallel. The method according to claim 1,
And the engaging portion includes a step for supporting a part of the inner surface of the magnet so that the magnet is not released to the inside.

Images